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Wrap

Text File | 1995-01-28 | 8.2 KB | 195 lines

#include "global.h" #include "timer.h" #include "mbuf.h" #include "netuser.h" #include "internet.h" #include "tcp.h" #include "bbc.h" /* Send a segment on the specified connection. One gets sent only * if there is data to be sent or if "force" is non zero */ void tcp_output(register struct tcb *tcb) { struct pseudo_header ph;/* Pseudo-header for checksum calcs */ struct mbuf *hbp,*dbp; /* Header and data buffer pointers */ int16 hsize; /* Size of header */ struct tcp seg; /* Local working copy of header */ int16 ssize; /* Size of current segment being sent, * including SYN and FIN flags */ int16 dsize; /* Size of segment less SYN and FIN */ int16 usable; /* Usable window */ int16 sent; /* Sequence count (incl SYN/FIN) already in the pipe */ if(tcb == NULLTCB) return; switch(tcb->state){ case LISTEN: case CLOSED: return; /* Don't send anything */ } for(;;){ sent = (int16)(tcb->snd.ptr - tcb->snd.una); #ifdef notdef /* If this is a retransmission, send only the oldest segment * (first-only retransmission policy) -- OBSOLETED by cwind */ if((tcb->flags & RETRAN) && sent != 0) break; #endif /* Don't send anything else until our SYN has been acked */ if(sent != 0 && !(tcb->flags & SYNACK)) break; if(tcb->snd.wnd == 0){ /* Allow only one closed-window probe at a time */ if(sent != 0) break; /* Force a closed-window probe */ usable = 1; } else { /* usable window = offered window - unacked bytes in transit * limited by the congestion window */ usable = min(tcb->snd.wnd,tcb->cwind) - sent; /* John Nagle's "single outstanding segment" rule. * Allow only one segment in the pipeline unless there is enough * unsent data to form at least one maximum-sized segment. */ if(sent != 0 && tcb->sndcnt - sent < tcb->mss){ usable = 0; } #ifdef notdef /* Silly window avoidance. Don't send anything if the usable window * is less than a quarter of the offered window. * This test comes into play only when the offered window is at * least 4 times the MSS; otherwise Nagle's test is sufficient * to prevent SWS. */ else if(usable < tcb->snd.wnd/4){ usable = 0; } #endif } /* Compute size of segment to send. This is either the usable * window, the mss, or the amount we have on hand, whichever is less. * (I don't like optimistic windows) */ ssize = min(tcb->sndcnt - sent,usable); ssize = min(ssize,tcb->mss); dsize = ssize; if(ssize == 0 && !(tcb->flags & FORCE)) break; /* No need to send anything */ tcb->flags &= ~FORCE; /* Only one forced segment! */ seg.source = tcb->conn.local.port; seg.dest = tcb->conn.remote.port; /* Set the SYN and ACK flags according to the state we're in. It is * assumed that if this segment is associated with a state transition, * then the state change will already have been made. This allows * this routine to be called from a retransmission timeout with * force=1. * If SYN is being sent, adjust the dsize counter so we'll * try to get the right amount of data off the send queue. */ seg.flags = ACK; /* Every state except SYN_SENT */ hsize = TCPLEN; /* Except when SYN being sent */ seg.mss = 0; switch(tcb->state){ case SYN_SENT: seg.flags = 0; /* Note fall-thru */ case SYN_RECEIVED: if(tcb->snd.ptr == tcb->iss){ seg.flags |= SYN; dsize--; /* Also send MSS */ seg.mss = tcp_mss; hsize = TCPLEN + MSS_LENGTH; } break; } seg.seq = tcb->snd.ptr; seg.ack = tcb->rcv.nxt; seg.wnd = tcb->rcv.wnd; seg.up = 0; /* Now try to extract some data from the send queue. * Since SYN and FIN occupy sequence space and are reflected * in sndcnt but don't actually sit in the send queue, * dup_p will return one less than dsize if a FIN needs to be sent. */ if(dsize != 0){ if(dup_p(&dbp,tcb->sndq,sent,dsize) != dsize){ /* We ran past the end of the send queue; send a FIN */ seg.flags |= FIN; dsize--; } } else dbp = NULLBUF; /* If the entire send queue will now be in the pipe, set the * push flag */ if(dsize != 0 && sent + ssize == tcb->sndcnt) seg.flags |= PSH; /* If this transmission includes previously transmitted data, * snd.nxt will already be past snd.ptr. In this case, * compute the amount of retransmitted data and keep score */ if(tcb->snd.ptr < tcb->snd.nxt) tcb->resent += min(tcb->snd.nxt - tcb->snd.ptr,ssize); tcb->snd.ptr += ssize; /* If this is the first transmission of a range of sequence * numbers, record it so we'll accept acknowledgments * for it later */ if(seq_gt(tcb->snd.ptr,tcb->snd.nxt)) tcb->snd.nxt = tcb->snd.ptr; /* Fill in fields of pseudo IP header */ ph.source = tcb->conn.local.address; ph.dest = tcb->conn.remote.address; ph.protocol = TCP_PTCL; ph.length = hsize + dsize; /* Generate TCP header, compute checksum, and link in data */ if((hbp = htontcp(&seg,dbp,&ph)) == NULLBUF){ free_p(dbp); return; } /* If we're sending some data or flags, start retransmission * and round trip timers if they aren't already running. */ if(ssize != 0) { tcb->timer.start = backoff(tcb->backoff) * (2 * tcb->mdev + tcb->srtt + MSPTICK) / MSPTICK; if (tcb->timer.start>tcp_mrtt) tcb->timer.start = tcp_mrtt; if(!run_timer(&tcb->timer)) start_timer(&tcb->timer); /* If round trip timer isn't running, start it */ if(!run_timer(&tcb->rtt_timer)) { start_timer(&tcb->rtt_timer); tcb->rttseq = tcb->snd.ptr; } } ip_send(tcb->conn.local.address,tcb->conn.remote.address, TCP_PTCL,tcb->tos,0,hbp,ph.length,0,0); } }